「rn a」の共起表現一覧(1語左で並び替え)6ページ目
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ide the 2'O-ribose methylation of 28S ribosomal | RNA (rRNA) residue G4020. |
de the 2'-O-ribose methylation of 28s ribosomal | RNA (rRNA) at residue A4531. |
o acts as a methylation guide for 25S ribosomal | RNA in plants . |
ide the 2'O-ribose methylation of 18S ribosomal | RNA (rRNA) reside A590. |
18S ribosomal | RNA (abbreviated 18S rRNA) is a part of the ribosom |
the 2'O-ribose methylation of the 28S ribosomal | RNA (rRNA) at residue A3697 . |
the pseudouridylation of U4938 of 28S ribosomal | RNA (rRNA). |
n reading frame though to code for 7s ribosomal | RNA in humans but not in mice or cows, where it has |
In molecular biology the 5.8S ribosomal | RNA (5.8S rRNA) is a non-coding RNA component of th |
The ribosomal | RNA and transfer RNA genes belong to the class of m |
that ribosome modulation factor binds ribosomal | RNA, and many cis-regulatory RNAs called ribosomal |
lthough it was initially designed for ribosomal | RNA data, it can be used for any nucleic and amino |
s a 2'-O-ribose methylation guide for ribosomal | RNA. |
o acts as a methylation guide for 18S ribosomal | RNA (rRNA) in plants . |
involved in the 3' end processing of ribosomal | RNA and snoRNAs. |
Genotypically, studies of 16s ribosomal | RNA suggested B. kururiensis belonged to the genus |
ased on analysis of mitochondrial 12S ribosomal | RNA, 16S ribosomal RNA and cytochrome-c oxidase I ( |
cis-regulatory element is a structured G/C rich | RNA element which is involved in controlling cell c |
The rmf | RNA motif is a conserved RNA structure that was ori |
require at least argonaute and an RNA-dependent | RNA polymerase. |
uired for translation of putative RNA-dependent | RNA polymerase. |
The rne-II | RNA motif is a conserved RNA structure identified u |
tem loop to be present at the 3' end of the roX | RNA transcripts. |
These studies show that roX | RNA are essential for dosage compensation where tha |
s also shown that in the presence of mutant roX | RNA the MSL complex was unable to localize on the X |
served regions and it was also noticed that roX | RNA is only present in male flies. |
This suggests that roX | RNA plays a role in directing MSL complex to the X |
The RprA | RNA gene encodes a 106 nucleotide regulatory non-co |
The RtT | RNA is a RNA element that is released from the tyrT |
The RyeB | RNA is a non-coding RNA that was identified in a la |
.. depicts the secondary structure for the RyhB | RNA. |
RyhB | RNA is a 90 nucleotide non-coding RNA that down-reg |
The SAM-Chlorobi | RNA motif is a conserved RNA structure that was ide |
upstream or downstream sequence within the same | RNA strand. |
The target of Sar | RNA in the ant mRNA. |
Sar | RNA is an antisense non-coding RNA that is partly r |
Structurally Sar | RNA forms two stem-loops. |
The sbcD | RNA motif is a conserved RNA structure identified u |
ated at The Scripps Research Institute, screens | RNA samples provided by investigators on a custom-d |
are negative sense, single-stranded, segmented | RNA viruses. |
virus which has the largest known non segmented | RNA genome; this is the mouse hepatitis virus (MHV) |
protein hydropathy, transcriptional selection, | RNA stability, optimal growth temperature and hyper |
virus, it has a single-stranded, positive sense | RNA genome which replicates via a DNA intermediate |
flexiviridae are single-stranded positive sense | RNA plant viruses, belonging to the order Tymoviral |
les, each containing a different positive sense | RNA. |
to synthesise many copies of the negative sense | RNA genome. |
flexiviridae are single-stranded positive sense | RNA plant viruses, belonging to the order Tymoviral |
omatin, or to the interactions between separate | RNA units in the ribosome or spliceosome. |
ransfer ribonucleate synthetase, seryl-transfer | RNA synthetase, seryl-transfer ribonucleic acid syn |
n molecular biology miR-375 microRNA is a short | RNA molecule. |
n molecular biology mir-320 microRNA is a short | RNA molecule. |
is a bacterial primase which synthesizes short | RNA oligonucleotides during DNA replication. |
n molecular biology mir-145 microRNA is a short | RNA molecule. |
Primase catalyzes the synthesis of a short | RNA segment (called a primer) complementary to a ss |
This pre-miR-21 is then cut in to a short | RNA duplex by Dicer in the cytosol. |
cular biology MicroRNA-223 (miR-223) is a short | RNA molecule. |
s or block the activity of a miRNA (using short | RNA that acts independently of the cell's RNAi mach |
DNA helicase where it then synthesizes a short | RNA primer approximately 11 ±1 nucleotides long, to |
f" certain Genes by introducing synthetic short | RNA into the cell. |
The function of this short | RNA has been studied using a transcriptomic approac |
vectors (viruses, plasmids) that encode a short | RNA molecule can also be used, short-RNA transfecti |
n molecular biology mir-210 microRNA is a short | RNA molecule. |
n molecular biology mir-200 microRNA is a short | RNA molecule. |
In molecular biology mir-22 microRNA is a short | RNA molecule. |
Such a short | RNA had been able to replicate very quickly in thes |
n molecular biology mir-221 microRNA is a short | RNA molecule. |
n molecular biology mir-451 microRNA is a short | RNA molecule. |
essed from the larger transcript into a shorter | RNA that roughly corresponds to the conserved, ~610 |
Sib | RNA regulates the expression of a toxic protein in |
strand to sib, so the antisense-binding of Sib | RNA with the ibs mRNA brings about dsRNA-mediated d |
tion and strand-displacement by specific signal | RNA sequences such as HIV RNA and oncogene RNA. |
heir degradation are still unclear, but similar | RNA species have also been detected in human cells. |
Simple | RNA structures called stem-loops have been reported |
Since | RNA has a secondary structure that is not necessari |
The concept behind it was that since | RNA encoded information, and since living cells cou |
50S is composed of proteins and single-strand | RNA called ribosomal RNA (rRNA). |
ents of linear, positive-sense, single-stranded | RNA, 1470-10650 nucleotides in length. |
ungal endonuclease that cleaves single-stranded | RNA after guanine residues, i.e., on their 3' end; |
gle molecule of positive-sense, single-stranded | RNA of about 9000 nucleotides in length. |
ded DNA from the viral genome's single-stranded | RNA. |
of a short stretch of circular, single-stranded | RNA without the protein coat that is typical for vi |
coating), and a 1063-nucleotide single-stranded | RNA genome which codes for the capsid and one other |
gmented linear, positive-sense, single-stranded | RNA. |
ridae have monopartite, linear, single-stranded | RNA genomes of positive polarity, 9.6- to 12.3-kilo |
This nucleic acid is usually single-stranded | RNA (ssRNA) but may be double-stranded RNA (dsRNA). |
Homogeneously labeled single-stranded | RNA can be generated with this system. |
eates single-stranded DNA using single-stranded | RNA as a template. |
This virus has positive-sense single-stranded | RNA genome. |
rsor that is processed into 24 nucleotide sized | RNA fragments that target the 3'UTR of viral DNA po |
The acquisition of a spliced leader from an SL | RNA is an intra-molecular reaction which precisely |
SL2 | RNA is a non-coding RNA involved in trans splicing |
ierum tuberculosis contains at least nine small | RNA families in its genome. |
FourU thermometers are relatively small | RNA molecules, only 57 nucleotides in length, and h |
Micro-RNA group: micro-RNA's are small | RNA molecules with important roles in regulation of |
The small | RNA (sRNA) families were identified through RNomics |
This is a solution | RNA structure model of the HIV-1 dimerization initi |
Some | RNA is processed by splicing to remove introns, lea |
For some | RNA (non-coding RNA) the mature RNA is the final ge |
viruses, rhabdoviruses, hepadnaviruses and some | RNA tumour viruses. |
After a while, Spiegelman took some | RNA and moved it to another tube with fresh solutio |
echnique that allowed the detection of specific | RNA and DNA molecules in cells. |
Small Cajal body specific | RNA 25 (otherwise known as scaRNA25, HBI-100, MBI-1 |
Small Cajal body specific | RNA 15 (also known as SCARNA15 or ACA45) is a small |
Small Cajal body specific | RNA 6 (also known as SCARNA6 or U88) is a small nuc |
Small Cajal body specific | RNA 8 (also known as SCARNA8 or U92) is a small nuc |
In molecular biology, Small Cajal body specific | RNA 21 (also known as scaRNA21 or ACA68) is a small |
The RRM seems to recognize specific | RNA sequences, typically located within exons. |
s exist and these convert cytosines in specific | RNA molecules, to uracil. |
a base-paired complex with another spliceosomal | RNA U4atac via two stem loop regions. |
U6atac minor spliceosomal | RNA is a non-coding RNA which is an essential compo |
tac is the functional analog of U4 spliceosomal | RNA in the major U2-type spliceosomal complex. |
U4atac minor spliceosomal | RNA is a ncRNA which is an essential component of t |
a base-paired complex with another spliceosomal | RNA U6atac via two stem loop regions. |
de the pseudouridylation of the U5 spliceosomal | RNA at position U43. |
tac is the functional analog of U6 spliceosomal | RNA in the major U2-type spliceosomal complex. |
Spliceosome | RNA helicase BAT1 is an enzyme that in humans is en |
SRG1 | RNA (SER3 regulatory gene 1) is a non-coding RNA wh |
SRG1 | RNA is unrelated to Senescence Related Gene 1 (SRG1 |
SYBR green can also stain | RNA with a lower performance than DNA. |
bovine pancreatic RNase A, it cleaves standard | RNA substrates 105-106 times less efficiently than |
In a last step, | RNA is recovered from the aqueous phase by precipit |
ion by binding to the polymerase, thus stopping | RNA polymerase activity inside a cell. |
The genome is a positive-sense single strand | RNA of 4450 nucleotides in length. |
has been found to be required for minus strand | RNA accumulation and is essential for efficient vir |
These positive strand | RNA genomes are translated as a single polypeptide |
ication (OriR) for the initiation of (-) strand | RNA synthesis. |
This family is required for negative strand | RNA synthesis in in the alfalfa mosaic virus and ma |
required for the initiation of negative strand | RNA synthesis. |
ated CpG repeats), ATP, toxins, double stranded | RNA, paramyxoviruses and uric acid crystals. |
not bind single stranded DNA or double stranded | RNA. |
of viruses which have (+) sense single stranded | RNA genomes. |
d that the source of rasiRNA is double stranded | RNA produced by annealing of sense and antisense re |
into 3 parts of positive sense, single stranded | RNA of about 8600 nucleotides in length. |
cterized by a positive-stranded single stranded | RNA genome that is rod-shaped and non-enveloped in |
TLR7 recognises single stranded | RNA in endosomes, which is a common feature of vira |
It cleaves either single or double stranded | RNA depending on the enzyme. |
n which consists of a negative, single stranded | RNA genome with a lipid envelope and 5 structural p |
It also digests double strands | RNA (dsRNS)-Dicer family of RNAse, cutting pre-miRN |
18S rRNA is the structural | RNA for the small component of eukaryotic cytoplasm |
The structured | RNA element consists of four domains (denoted as II |
The HIV primer binding site is a structured | RNA element in the genomes of retroviruses to which |
As a result, the virus is often used to study | RNA interference as a mechanism of viral immunity i |
Davidson's Ph.D. work entailed studying | RNA synthesis and gene expression in early developm |
phages which encode their own (single subunit) | RNA polymerase, a common characteristic among its m |
ment is similar to the previously reported sucA | RNA motif. |
The sucA | RNA motif is a conserved RNA structure found in bac |
The sucA-II | RNA motif is a conserved RNA structure identified b |
The sucC | RNA motif is a conserved RNA structure discovered u |
Such | RNA molecules interact with a downstream region to |
Two such | RNA classes were identified and called the PhotoRC- |
nclude transfer ribonucleate sulfurtransferase, | RNA sulfurtransferase, ribonucleate sulfurtransfera |
SymR | RNA is a non-coding RNA which forms a type I toxin- |
tive Northern blot experiments showed that SymR | RNA is present in cells at 10 times the concentrati |
he SOS response represses transcription of SymR | RNA, allowing SymE toxin to degrade potentially dam |
her experiments with other strands of synthetic | RNA (such as Poly-A) and prepare papers for publica |
An antagomir is a small synthetic | RNA that is perfectly complementary to the specific |
In biotechnology applications, T7 | RNA polymerase is commonly used to transcribe DNA t |
Structure and function in promoter escape by T7 | RNA polymerase". |
Stimulates T4 polynucleotide kinase and T7 | RNA polymerase activity |
TAF9 | RNA polymerase II, TATA box binding protein (TBP)-a |
tors offer the promise of individually tailored | RNA based drugs which respond to genes, small molec |
CPEB most commonly activates the target | RNA for translation, but can also act as a represso |
the snoRNP to recognise and bind to the target | RNA. |
e (or two) individual modifications in a target | RNA. |
sequences that are complementary to the target | RNA and basepair to the regions flanking the uridin |
It has no identified target | RNA. |
piRNA is part of TaveRNA | RNA software suite. |
ructure of a pseudoknot from a human telomerase | RNA. |
For example, the Telomerase | RNA component contains a pseudoknot that is critica |
Small temporal | RNA (abbreviated stRNA) regulates gene expression d |
n sequence positions resembling DNA rather than | RNA) |
A molecules are also typically much longer than | RNA molecules. |
ollection of isolated DNA fragments rather than | RNA, and the probe is RNA extracted from a tissue a |
binding of proteins to genomic DNA rather than | RNA. |
RNases of many different classes, showing that | RNA degradation is a very ancient and important pro |
the first codon of the genetic code showed that | RNA controlled the production of specific types of |
f its molecule and nonspecific affinity for the | RNA molecules on its other end, which allows it to |
However, it is unknown if the | RNA is used by phages. |
Upon ingestion, it binds to the | RNA polymerase II enzyme which completely prevents |
n intron, and the snRNP subunits bring fold the | RNA so that the 5' and 3' ends of the intron are jo |
The | RNA might have a cis-regulatory role, but the evide |
DNA and can therefore hybridize anywhere on the | RNA (Reverse transcriptase requires this double-str |
of RNase P and the enzymatic properties of the | RNA subunit of that enzyme. |
The | RNA molecules (rRNA and tRNA) played an important r |
Upon ingestion, it binds to the | RNA polymerase II enzyme, effectively causing cytol |
ted into Xenopus oocytes to ultimately find the | RNA species that induced the expression of sodium-g |
The | RNA is detected only in genome sequences derived fr |
The | RNA structure has been determined by chemical probi |
general transcription factors that make up the | RNA polymerase II preinitiation complex. |
hoto-regulation of the translation of psbA, the | RNA encoding for the photoisystem II core protein D |
er protein content than the bacterial ones, the | RNA cores from all three lineages are homologous -- |
The | RNA structure was predicted and confirmed by mutage |
ot followed by a poly-Uracil sequence cause the | RNA polymerase to pause, but it will typically cont |
ly(A) tail can also recruit RNases that cut the | RNA in two. |
are cis-regulatory elements functioning at the | RNA level, since bacterial cis-regulatory RNAs typi |
ing the course of his studies he discovered the | RNA sequence necessary for ribosome binding and the |
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